Shunt Reactor Detail Industrial and Market studies: Global Industry Analysis and Opportunity Assessment, 2016-2026
"Shunt
Reactor Market: Global Industry Analysis and Opportunity Assessment,
2016-2026"
The Report covers current Industries Trends, Worldwide Analysis,
Global Forecast, Review, Share, Size, Growth, Effect.
Description-
A
shunt reactor is an electrical device mainly used to absorb reactive
power in an electrical power grid system. In a power transmission and
distribution system, the voltage at the receiving end of electrical
power is more than that at the origin or less than the voltage at
origin due to long transmission distances, this difference in voltage
is called reactive power. Shunt reactors are mainly installed at
transmission line terminals or in the center of transmission lines in
parallel configuration. This layout of installation of shunt reactors
in the power grid system absorbs reactive power, minimises
distribution losses and regulates voltage throughout the transmission
system. Global sales of shunt reactors was valued at US$ 1,996.9 Mn
in 2015, and is projected to increase 2.4X by the end of 2026 to be
valued at U7$ 4,864.7 Mn. Global sales revenue is expected to
register a CAGR of 8.6% over the forecast period.
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Increasing
demand for electricity is fuelling the growth of the global shunt
reactor market
Key driving factors identified in the global shunt
reactor market include expanding electrical distribution network on
the backdrop of continually increasing demand for electricity,
refurbishment of ageing coal-fired plants and ageing power
infrastructure in developed economies, and emergence of microgrids
and interconnection of local and regional grids. However, increasing
product life and component costs can inhibit new product sales to
some extent and act as a restraint in the global shunt reactor
market.
Oil-immersed shunt reactor segment to exhibit a strong growth
Oil-immersed shunt reactor segment to exhibit a strong growth
The oil-immersed shunt reactor segment accounted
for 64.8% share of the global shunt reactor market in 2015. This
segment is projected to remain dominant over the forecast period,
with increasing Y-o-Y growth of 6.7% to 8.9% from 2016 to 2026.
Three phase shunt reactor segment expected
to remain dominant over the forecast period
In terms of value and volume, the three phase
shunt reactor segment dominated the global shunt reactor market in
2015. The segment is estimated to account for 58.3% market value
share by the end of 2016. The segment is projected to remain dominant
over the forecast period, with increasing Y-o-Y growth of 6.7% to
9.1% from 2016 to 2026. Increasing number of industrial
establishments and growing demand for three phase electricity in
manufacturing and assembling facilities are expected to play a major
role in the growth of this segment. In terms of revenue growth, the
single phase shunt reactor segment is projected to expand at a
significantly higher rate than that of the three phase shunt reactor
segment in the global shunt reactor market over the forecast period
due to expanding electricity transmission and distribution to meet
the demand for residential purposes across the globe.
Global shunt reactor market to exhibit a
strong growth in developing economies like China and India
From a regional perspective, North America is
estimated to account for the highest market value share of 32.4% in
2016. Sales revenue of shunt reactors in APEJ and Latin America is
estimated to account for second (24.9%) and third largest shares
(16.7%) respectively by 2016 end. Consumption of shunt reactors in
APEJ is projected to grow at a higher Y-o-Y growth rate due to
expanding power generation and distribution infrastructure to meet
the increasing electrical energy demand majorly from industries based
in China and India.
Geographic expansion and strategic
investments are some of the key strategies adopted by prominent
market players in the global shunt reactor market
ABB Ltd., General Electric (ALSTOM), Fuji Electric
Co. Ltd., Toshiba Corporation, Siemens AG, Zaporozhtransformator
PJSC, Nissin Electric Co. Ltd, and Hyosung Corporation are some of
the leading companies operating in the global shunt reactor market.
Strategic investments and acquisitions to strengthen revenue
generation, geographic expansion through organic growth, and new
product development and product support technologies are some of the
strategies adopted by key market players to expand their market
share.
Table
Of Content
1. Executive Summary
2. Assumptions and Acronyms Used
3. Research Methodology
4. Market Overview
4.1. Introduction
4.1.1. Market Definition
4.1.2. Market Taxonomy
4.2. Market Dynamics
4.2.1. Drivers
4.2.2. Restraints
4.3. Value Chain
4.4. Market Forecast
4.4.1. Market Size and Y-o-Y Growth
4.4.2. Absolute $ Opportunity
4.4.3. Market Volume Forecast
4.5. Market Trends
4.6. Regional Pricing Analysis (2014)
4.7. Drivers and Restraints Impact Analysis
4.1. Introduction
4.1.1. Market Definition
4.1.2. Market Taxonomy
4.2. Market Dynamics
4.2.1. Drivers
4.2.2. Restraints
4.3. Value Chain
4.4. Market Forecast
4.4.1. Market Size and Y-o-Y Growth
4.4.2. Absolute $ Opportunity
4.4.3. Market Volume Forecast
4.5. Market Trends
4.6. Regional Pricing Analysis (2014)
4.7. Drivers and Restraints Impact Analysis
5. Global Shunt Reactor Market Analysis
and Forecast, By Product Type
5.1. Introduction
5.2. Global Shunt Reactor Market Size Forecast By Product Type
5.2.1. Basis Point Share Analysis By Product Type
5.2.2. Y-o-Y Growth Projections By Product Type
5.3. Air-Core Dry Type
5.3.1. Market Size Forecast and Y-o-Y Growth By Product Type
5.3.2. Absolute $ Opportunity
5.3.3. Market Volume Forecast
5.4. Oil Immersed
5.4.1. Market Size Forecast and Y-o-Y Growth By Product Type
5.4.2. Absolute $ Opportunity
5.4.3. Market Volume Forecast
5.5. Global Shunt Reactor Market Attractiveness Analysis By Product Type
5.1. Introduction
5.2. Global Shunt Reactor Market Size Forecast By Product Type
5.2.1. Basis Point Share Analysis By Product Type
5.2.2. Y-o-Y Growth Projections By Product Type
5.3. Air-Core Dry Type
5.3.1. Market Size Forecast and Y-o-Y Growth By Product Type
5.3.2. Absolute $ Opportunity
5.3.3. Market Volume Forecast
5.4. Oil Immersed
5.4.1. Market Size Forecast and Y-o-Y Growth By Product Type
5.4.2. Absolute $ Opportunity
5.4.3. Market Volume Forecast
5.5. Global Shunt Reactor Market Attractiveness Analysis By Product Type
6. Global Shunt Reactor Market Analysis
and Forecast, By Phase
6.1. Introduction
6.2. Global Shunt Reactor Market Size Forecast By Phase
6.2.1. Basis Point Share Analysis By Phase
6.2.2. Y-o-Y Growth Projections By Phase
6.3. Single Phase
6.3.1. Market Size Forecast and Y-o-Y Growth By Phase
6.3.2. Absolute $ Opportunity
6.3.3. Market Volume Forecast
6.4. Three Phase
6.4.1. Market Size Forecast and Y-o-Y Growth By Phase
6.4.2. Absolute $ Opportunity
6.4.3. Market Volume Forecast
6.5. Global Shunt Reactor Market Attractiveness Analysis By Phase
6.1. Introduction
6.2. Global Shunt Reactor Market Size Forecast By Phase
6.2.1. Basis Point Share Analysis By Phase
6.2.2. Y-o-Y Growth Projections By Phase
6.3. Single Phase
6.3.1. Market Size Forecast and Y-o-Y Growth By Phase
6.3.2. Absolute $ Opportunity
6.3.3. Market Volume Forecast
6.4. Three Phase
6.4.1. Market Size Forecast and Y-o-Y Growth By Phase
6.4.2. Absolute $ Opportunity
6.4.3. Market Volume Forecast
6.5. Global Shunt Reactor Market Attractiveness Analysis By Phase
7. Global Shunt Reactor Market Analysis
and Forecast, By Rating
7.1. Introduction
7.2. Global Shunt Reactor Market Size Forecast By Rating
7.2.1. Basis Point Share Analysis By Rating
7.2.2. Y-o-Y Growth Projections By Rating
7.3. Fixed Shunt Reactor
7.3.1. Market Size Forecast and Y-o-Y Growth By Rating
7.3.2. Absolute $ Opportunity
7.3.3. Market Volume Forecast
7.4. Variable Shunt Reactor
7.4.1. Market Size Forecast and Y-o-Y Growth By Rating
7.4.2. Absolute $ Opportunity
7.4.3. Market Volume Forecast
7.5. Global Shunt Reactor Market Attractiveness Analysis By Rating
7.1. Introduction
7.2. Global Shunt Reactor Market Size Forecast By Rating
7.2.1. Basis Point Share Analysis By Rating
7.2.2. Y-o-Y Growth Projections By Rating
7.3. Fixed Shunt Reactor
7.3.1. Market Size Forecast and Y-o-Y Growth By Rating
7.3.2. Absolute $ Opportunity
7.3.3. Market Volume Forecast
7.4. Variable Shunt Reactor
7.4.1. Market Size Forecast and Y-o-Y Growth By Rating
7.4.2. Absolute $ Opportunity
7.4.3. Market Volume Forecast
7.5. Global Shunt Reactor Market Attractiveness Analysis By Rating
8. Global Shunt Reactor Market Analysis
and Forecast, By Application
8.1. Introduction
8.2. Global Shunt Reactor Market Size Forecast By Application
8.2.1. Basis Point Share Analysis By Application
8.2.2. Y-o-Y Growth Projections By Application
8.3. Residential
8.3.1. Market Size Forecast and Y-o-Y Growth By Application
8.3.2. Absolute $ Opportunity
8.3.3. Market Volume Forecast
8.4. Industrial
8.4.1. Market Size Forecast and Y-o-Y Growth By Application
8.4.2. Absolute $ Opportunity
8.4.3. Market Volume Forecast
8.5. Global Shunt Reactor Market Attractiveness Analysis By Application
8.1. Introduction
8.2. Global Shunt Reactor Market Size Forecast By Application
8.2.1. Basis Point Share Analysis By Application
8.2.2. Y-o-Y Growth Projections By Application
8.3. Residential
8.3.1. Market Size Forecast and Y-o-Y Growth By Application
8.3.2. Absolute $ Opportunity
8.3.3. Market Volume Forecast
8.4. Industrial
8.4.1. Market Size Forecast and Y-o-Y Growth By Application
8.4.2. Absolute $ Opportunity
8.4.3. Market Volume Forecast
8.5. Global Shunt Reactor Market Attractiveness Analysis By Application
9. Global Shunt Reactor Market Analysis
and Forecast, By Voltage Range
9.1 Introduction
9.2. Global Shunt Reactor Market Size Forecast By Voltage Range
9.2.1. Basis Point Share Analysis By Voltage Range
9.2.2. Y-o-Y Growth Projections By Voltage Range
9.3. Less than 200 kV
9.3.1. Market Size Forecast and Y-o-Y Growth By Voltage Range
9.3.2. Absolute $ Opportunity
9.3.3. Market Volume Forecast
9.4. 200-400 kV
9.4.1. Market Size Forecast and Y-o-Y Growth By Voltage Range
9.4.2. Absolute $ Opportunity
9.4.3. Market Volume Forecast
9.5. Greater than 400 kV
9.5.1. Market Size Forecast and Y-o-Y Growth By Voltage Range
9.5.2. Absolute $ Opportunity
9.5.3. Market Volume Forecast
9.6. Global Shunt Reactor Market Attractiveness Analysis By Voltage Range
9.1 Introduction
9.2. Global Shunt Reactor Market Size Forecast By Voltage Range
9.2.1. Basis Point Share Analysis By Voltage Range
9.2.2. Y-o-Y Growth Projections By Voltage Range
9.3. Less than 200 kV
9.3.1. Market Size Forecast and Y-o-Y Growth By Voltage Range
9.3.2. Absolute $ Opportunity
9.3.3. Market Volume Forecast
9.4. 200-400 kV
9.4.1. Market Size Forecast and Y-o-Y Growth By Voltage Range
9.4.2. Absolute $ Opportunity
9.4.3. Market Volume Forecast
9.5. Greater than 400 kV
9.5.1. Market Size Forecast and Y-o-Y Growth By Voltage Range
9.5.2. Absolute $ Opportunity
9.5.3. Market Volume Forecast
9.6. Global Shunt Reactor Market Attractiveness Analysis By Voltage Range
10. Global Shunt Reactor Market Analysis,
By Region
10.1. Introduction
10.1.1. Y-o-Y Growth Projections, By Region
10.1.2. Basis Point Share Analysis, By Region
10.2. Market Forecast By Region
10.2.1. North America Market Value Forecast
10.2.2. Latin America Market Value Forecast
10.2.3. Asia Pacific Excl. Japan Market Value Forecast
10.2.4. Western Europe Market Value Forecast
10.2.5. Eastern Europe Market Value Forecast
10.2.6. Middle East & Africa Market Value Forecast
10.2.7. Japan Market Value Forecast
10.3. Regional Attractiveness Analysis
10.1. Introduction
10.1.1. Y-o-Y Growth Projections, By Region
10.1.2. Basis Point Share Analysis, By Region
10.2. Market Forecast By Region
10.2.1. North America Market Value Forecast
10.2.2. Latin America Market Value Forecast
10.2.3. Asia Pacific Excl. Japan Market Value Forecast
10.2.4. Western Europe Market Value Forecast
10.2.5. Eastern Europe Market Value Forecast
10.2.6. Middle East & Africa Market Value Forecast
10.2.7. Japan Market Value Forecast
10.3. Regional Attractiveness Analysis
11. North America Shunt Reactor Market
Analysis
11.1. Introduction
11.1.1. Y-o-Y Growth Projections, By Country
11.1.2. Basis Point Share Analysis, By Country
11.1.3. Key Trends
11.2. North America Shunt Reactor Market Forecast
11.2.1. Market Size and Volume Forecast By Country
11.2.1.1. U.S.
11.2.1.2. Canada
11.2.2. Market Size and Volume Forecast By Product Type
11.2.2.1. Air-core Dry Type
11.2.2.2. Fixed Shunt Reactor
11.1. Introduction
11.1.1. Y-o-Y Growth Projections, By Country
11.1.2. Basis Point Share Analysis, By Country
11.1.3. Key Trends
11.2. North America Shunt Reactor Market Forecast
11.2.1. Market Size and Volume Forecast By Country
11.2.1.1. U.S.
11.2.1.2. Canada
11.2.2. Market Size and Volume Forecast By Product Type
11.2.2.1. Air-core Dry Type
11.2.2.2. Fixed Shunt Reactor
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